CN114751043A - Detection system for photovoltaic module - Google Patents

Abstract

The invention relates to the technical field of photovoltaic power generation, in particular to a detection system for a photovoltaic module. The invention provides a detection system for a photovoltaic module, which comprises: workstation, first conveyer belt, subsides mark portion, detection portion, second conveyer belt, support frame and drying portion. The labeling part is suitable for labeling the workpiece; the detection parts are rotatably arranged at two sides of the first conveying belt and are suitable for compacting the labeled workpiece and performing oil printing on labeling positions at two side edges of the workpiece; the supporting frame is fixed on one side of the workbench, one end of the second conveying belt is hinged to the supporting frame, the other end of the second conveying belt is close to the first conveying belt, and the second conveying belt is arranged below the first conveying belt; the drying part is arranged on one side of the second conveying belt and is suitable for drying the oil marks on the side wall of the workpiece; after the workpiece is moved from the first conveying belt to the second conveying belt, the second conveying belt drives the workpiece to move to the drying part, and the drying part blows air to the side wall of the workpiece to dry the oil seal.

Description

Detection system for photovoltaic module

Technical Field

The invention relates to the technical field of photovoltaic power generation, in particular to a detection system for a photovoltaic module.

Background

The photovoltaic module can be divided into a single-glass assembly and a double-glass assembly from the packaging angle as the core equipment of the photovoltaic power station. With the development of the photovoltaic power generation industry, the double-sided battery is rapidly developed, and in the current market, double-sided battery assemblies are mostly packaged by double glasses, and a small number of double-sided battery assemblies are packaged by transparent back plates.

After the photovoltaic module is packaged, labeling work needs to be carried out on the packaged photovoltaic module, whether the labeling position is qualified needs to be detected after the photovoltaic module is labeled by the labeling device, and meanwhile, an anti-counterfeiting code needs to be printed on the label; the detection in the prior art is mostly manual detection, and the working efficiency of the mode is low. And the natural drying mode is adopted for the oil-printed anti-counterfeiting code at the labeling position. Therefore, it is necessary to develop a detection system for photovoltaic modules.

Disclosure of Invention

The invention aims to provide a detection system for a photovoltaic module.

In order to solve the above technical problem, the present invention provides a detection system for a photovoltaic module, including: the labeling device comprises a workbench, a first conveying belt, a labeling part, a detecting part, a second conveying belt, a supporting frame and a drying part, wherein the first conveying belt is fixed on the workbench and is suitable for conveying workpieces;

the labeling part is fixed above the workbench and is suitable for labeling a workpiece;

the detection parts are rotatably arranged on two sides of the first conveying belt and are suitable for compacting the labeled workpiece and performing oil printing on labeling positions on two side edges of the workpiece;

the supporting frame is fixed on one side of the workbench, one end of the second conveying belt is hinged to the supporting frame, the other end of the second conveying belt is close to the first conveying belt, and the second conveying belt is arranged below the first conveying belt;

the drying part is arranged on one side of the second conveying belt and is suitable for drying oil marks on the side wall of the workpiece; wherein

After the workpiece is moved from the first conveying belt to the second conveying belt, the second conveying belt drives the workpiece to move to the drying part, and the drying part blows air to the side wall of the workpiece to dry the oil marks.

Further, the drying part includes: the drying blower, the fixing plate and the drying blowing head are fixed on the side wall of the second conveying belt bracket, the drying blower is fixed on the side wall of the fixing plate, the drying blowing head is fixed above the fixing plate, and the drying blowing head faces the second conveying belt;

the drying blowing head is hollow, and is communicated with the drying fan through a pipeline; wherein

When the second conveying belt drives the workpiece to move below the drying blowing head, the drying fan blows air to the side wall of the workpiece through the drying blowing head so as to dry the oil marks on the side wall of the workpiece.

Furthermore, a connecting plate is vertically fixed on the fixing plate, and the drying blowing head is fixed at the end part of the connecting plate; the connecting plate is hollow, the pipeline is arranged inside the connecting plate, one end of the pipeline is communicated with an air outlet of the drying fan, and the other end of the pipeline is communicated with an air inlet end of the drying blowing head.

Furthermore, the drying blowing head is conical, the air outlet of the drying blowing head faces the second conveying belt, an electric heating wire is arranged in the drying blowing head, and the electric heating wire is arranged around the circumference of the air outlet of the drying blowing head; wherein

When the electric heating wire is used for heating, hot air is blown to the side wall of the workpiece through the air outlet of the drying blowing head.

Further, the drying section further comprises: the pushing cylinder is fixed on one side of the fixed plate and is perpendicular to the second conveying belt;

the positioning block is vertically fixed on the fixing plate, the positioning block is fixed on one side, close to the pushing cylinder, of the fixing plate, and the sliding plate is fixed at the end part of a piston rod of the pushing cylinder;

the sliding plate is long, the length direction of the sliding plate is consistent with the moving direction of the second conveying belt, and a piston rod of the pushing cylinder penetrates through the positioning block; wherein

The pushing cylinder drives the sliding plate to horizontally slide towards the second conveying belt, so that the sliding plate is abutted against the side wall of the workpiece and corrects the workpiece.

Furthermore, a pushing groove matched with the workpiece is formed in the sliding plate, the pushing groove is formed along the length direction of the sliding plate, and the pushing groove is formed in one side, close to the second conveying belt, of the lower end face of the sliding plate; wherein

When the pushing cylinder drives the sliding plate to move towards the workpiece, the side wall of the pushing groove and the upper top wall are respectively abutted against the side wall and the upper wall of the workpiece.

Furthermore, an angle cylinder is fixed on the supporting frame, one end of the angle cylinder is fixed on the supporting frame, the end part of a piston rod of the angle cylinder is hinged below the second conveying belt, and the angle cylinder is fixed on the supporting frame

The angle cylinder during operation can promote the second conveyer belt uses the pin joint of second conveyer belt and support frame as the axle, and the tip upwards or moves down.

Further, the detection section includes: the pressing wheel is rotatably arranged on the inner side wall of the fixed block, and the pressing wheel is arranged above the first conveying belt;

the compaction component is slidably arranged on the outer wall of the pressing wheel, and is suitable for abutting against a workpiece and compacting and labeling when the pressing wheel rotates for one circle;

the oil seal assembly is arranged above the fixed block, and the lower end of the oil seal assembly abuts against the compaction assembly; wherein

When the first conveying belt drives the workpiece to move to the position below the pressing wheel, the pressing wheel axially rotates to compact the label on the upper surface of the workpiece;

when the pressing wheel drives the compaction assembly to axially rotate to abut against the workpiece, the workpiece extrudes the compaction assembly to slide towards the outer wall direction of the pressing wheel, so that the compaction assembly compacts the label on the side wall of the workpiece and applies the anti-counterfeiting code to the oil mark at the label position;

pressing wheel drive compaction subassembly axial rotates to when offseting with the mimeograph subassembly, and the mimeograph subassembly can be smeared printing ink to compaction subassembly diapire.

Further, the compaction assembly includes: the edge pressing block is in a right-angled trapezoid shape, and two bottom edges of the edge pressing block are perpendicular to the first conveying belt;

one side of the right-angled waist edge of the edge pressing block, which is close to the workpiece, is provided with a pressing groove;

the outer wall of the pressing wheel is provided with a sliding groove matched with the edge pressing block; the edge pressing block is arranged in the sliding groove in a sliding manner;

one end of the beating plate is slidably arranged on the side wall of the edge pressing block, and the other end of the beating plate extends to the first conveying belt;

a hole groove is formed in the edge pressing block, one end of the compression spring is fixed on the bottom wall of the hole groove, and the other end of the compression spring is fixed on the inner side wall of the sliding groove; wherein

In the process that the edge pressing block is driven by the pressing wheel to axially rotate to abut against the workpiece, the workpiece extrudes the edge pressing block to move towards the outer wall direction of the outer pressing wheel along the sliding groove until the side wall of the pressing groove abuts against the side wall of the workpiece, so that the label is pressed on the side wall of the workpiece;

after the pressing wheel drives the pressing edge block to be separated from the workpiece, the pressing edge block is pulled by the pressing spring to reset and slide towards the sliding groove, and the beating plate slides from outside to inside to beat the workpiece protruding out of the side wall of the first conveying belt.

Further, the stamp assembly includes: the ink fountain comprises a rectangular box, an ink adding duct and a sponge block, wherein the rectangular box is hollow, and ink is suitable for being stored in the rectangular box;

the ink adding duct is fixed above the rectangular box, and an opening of the ink adding duct is upward;

the sponge block is fixed on the outer wall of the inner side of the rectangular box, and a through hole communicated with the sponge block is formed in the side wall of the rectangular box; wherein

And the pressing wheel drives the edge pressing block to axially rotate until the lower bottom surface of the edge pressing block abuts against the lower bottom surface of the rectangular box, and the bottom wall and the side wall of the pressing groove simultaneously extrude the sponge block so as to be stained with ink.

The detection system for the photovoltaic module has the beneficial effects that through the arrangement of the drying part, hot air can be blown to the surface of the workpiece, so that the printed oil marks on the side wall of the workpiece are dried. Through the setting of detection portion, can compress tightly the label of pasting on the work piece to the anti-fake sign indicating number of seal of label upper end.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a front view of a preferred embodiment of a detection system for photovoltaic modules of the present invention;

FIG. 2 is a perspective view of a second conveyor belt of the present invention;

FIG. 3 is a perspective view of the drying section of the present invention;

FIG. 4 is a perspective view of a detection section of the present invention;

FIG. 5 is a perspective view of the compaction assembly of the invention;

FIG. 6 is a perspective view of the stitching wheel of the present invention;

fig. 7 is a perspective view of the stamp assembly of the present invention.

In the figure:

1. a work table; 2. a first conveyor belt; 3. a second conveyor belt; 4. a labeling part; 5. a detection unit; 51. a fixed block; 52. a pressing wheel; 520. a sliding groove; 53. compacting the assembly; 531. pressing an edge block; 532. a compression spring; 533. beating a plate; 534. compacting the groove;

54. a stencil assembly; 541. a rectangular box; 542. adding an ink fountain; 543. a sponge block;

6. a support frame; 7. a drying section; 71. drying the fan; 72. a fixing plate; 73. drying the blowing head; 74. a connecting plate; 75. an air outlet; 76. a pushing cylinder; 77. positioning blocks; 78. a sliding plate; 79. pushing the groove; 80. an angle cylinder.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1 to 7, the present invention provides a detection system for a photovoltaic module, including: the labeling machine comprises a workbench 1, a first conveying belt 2, a labeling part 4, a detection part 5, a second conveying belt 3, a support frame 6 and a drying part 7. The table 1 is adapted to support a first conveyor belt 2 and a labelling section 4. The first conveyor belt 2 is adapted to convey workpieces. The labeling section 4 is adapted to label the side wall of the workpiece on the first conveyor 2. The detecting portion 5 is adapted to compact the label applied to the labeling portion 4 and to perform a stamp printing on the label. The second conveyor belt 3 is adapted to convey the work pieces dropped from the first conveyor belt 2. The support frame 6 is adapted to serve as the second conveyor belt 3. The drying section 7 is adapted to dry the mimeographed portion. With respect to the above components, detailed description is given below.

Working table 1

The workbench 1 is arranged on a horizontal plane, the workbench 1 can be used as a mounting base of the detection system shown in the embodiment, specifically, the first conveying belt 2 and the labeling part 4 are directly fixedly mounted on the workbench 1, the detection part 5 is indirectly mounted on the workbench 1 through the first conveying belt 2, and the workbench 1 can provide reliable support for the above components. The lower end of the working table 1 is provided with a plurality of rollers and supporting legs. A roller and a supporting foot are correspondingly arranged at one corner of the lower end of the workbench 1, and the supporting feet can stretch out and draw back. When the supporting feet are contracted to be higher than the rollers, the workbench 1 can adjust the horizontal position through the rollers; when each supporting foot extends to be lower than the roller, each supporting foot can support the workbench 1, so that the workbench 1 is horizontally positioned.

First conveyor belt 2

The first conveying belt 2 is fixedly arranged at the upper end of the workbench 1, and the first conveying belt 2 is suitable for conveying workpieces. Particularly, 2 one sides of first conveyer belt are provided with a driving motor, and driving motor during operation can drive 2 one-way continuous cyclic delivery of first conveyer belt. Both ends of the first conveyor belt 2 may be divided into a feeding end and a discharging end in a horizontal conveying direction of the upper surface of the first conveyor belt 2. After the workpiece is placed at the feeding end of the first conveyor belt 2, the first conveyor belt 2 can convey the workpiece to the discharging end direction.

Supporting frame 6

The support frame 6 is fixed in one side of workstation 1, specifically, is located the one side that is close to the unloading end, is suitable for the installation second conveyer belt 3 on the support frame 6.

Second conveyor 3

The second conveyer belt 3 sets up in first conveyer belt 2 one side, and second conveyer belt 3 and first conveyer belt 2 parallel arrangement. Particularly, one end of the second conveying belt 3 is hinged on the supporting frame 6, the other end of the second conveying belt is close to the first conveying belt 2, and the second conveying belt 3 is arranged below the blanking end of the first conveying belt 2. The direction of the feeding end and the blanking end of the second conveying belt 3 is consistent with that of the first conveying belt 2, a workpiece can move to the blanking end along with the first conveying belt 2, the feeding end of the second conveying belt 3 can fall downwards, and then the second conveying belt 3 can convey the workpiece to the blanking end.

In addition, an angle cylinder 80 is fixed on the support frame 6, one end of the angle cylinder 80 is fixed on the support frame 6, and the end part of a piston rod of the angle cylinder 80 is hinged below the second conveying belt 3. The angle cylinder 80 can push the second conveyor belt 3 to move upward or downward with the hinge point of the second conveyor belt 3 and the support frame 6 as an axis when working. In this way, the inclination angle of the second conveyor belt 3 can be adjusted.

Drying section 7

Drying portion 7 sets up in one side of second conveyer belt 3, and the work piece pastes the mark and the stamp-pad ink is accomplished the back, can fall on second conveyer belt 3 to carry to one side of drying portion 7 along with second conveyer belt 3, drying portion 7 can be to the work piece surface hot-blast, thereby dries the stamp-pad ink of work piece lateral wall.

The structure of the drying section 7 will be described in detail below, and the drying section 7 includes: a drying fan 71, a fixing plate 72 and a drying blower 73. The fixing plate 72 is fixed on the side wall of the second conveyor belt 3 support, and the fixing plate 72 is suitable for mounting a drying motor and a drying blowing head 73. The drying blower 71 is fixed on the side wall of the fixing plate 72, the drying blowing head 73 is fixed above the fixing plate 72, and the drying blowing head 73 faces the second conveyor belt 3. The fixing plate 72 is further provided with a connecting plate 74, the connecting plate 74 is vertically arranged, and two ends of the fixing plate 72 are respectively connected and communicated with the drying blowing head 73 and the drying fan 71. Specifically, the drying and blowing head 73 is hollow, the drying and blowing head 73 is fixed at the end of the connecting plate 74, the connecting plate 74 is hollow, the pipeline is arranged inside the connecting plate 74, one end of the pipeline is communicated with the air outlet 75 of the drying fan 71, and the other end of the pipeline is communicated with the air inlet end of the drying and blowing head 73. In this way, the drying blower 73 is communicated with the drying fan 71. In addition, the drying and blowing head 73 is conical, an air outlet 75 is formed in one end, away from the connecting plate 74, of the drying and blowing head 73, the air outlet 75 faces the second conveying belt 3, an electric heating wire is arranged in the drying and blowing head 73, and the electric heating wire is arranged around the air outlet 75 of the drying and blowing head 73. When the heating wire is used for heating, hot air is blown to the side wall of the workpiece through the air outlet 75 of the drying blowing head 73. Therefore, when the second conveying belt 3 drives the workpiece to move below the drying and blowing head 73, the drying fan 71 blows air to the side wall of the workpiece through the drying and blowing head 73 to dry the oil marks on the side wall of the workpiece.

In order to ensure that the workpiece moves below the drying blowing head 73, the air outlet 75 can be over against the oil mark part of the workpiece, so as to improve the drying effect on the oil mark. Before the workpiece moves below the drying and blowing head 73, the position of the workpiece needs to be adjusted. In order to achieve the above-mentioned effects, the drying section 7 further comprises: a jacking cylinder 76, a positioning block 77 and a slide plate 78. The casing of the pushing cylinder 76 is fixed on one side of the fixing plate 72, the piston rod of the pushing cylinder 76 is horizontally arranged and faces the second conveying belt 3, and the pushing cylinder 76 is perpendicular to the second conveying belt 3. The positioning block 77 is vertically fixed on the fixing plate 72, the positioning block 77 is fixed on one side of the fixing plate 72 close to the pushing cylinder 76, a through hole matched with the piston rod of the pushing cylinder 76 is formed in the positioning block 77, the piston rod of the pushing cylinder 76 penetrates through the through hole, and the positioning block 77 can provide support for the piston rod of the pushing cylinder 76 and guide the sliding direction of the piston rod. The sliding plate 78 is fixed at the end of the piston rod of the pushing cylinder 76, the sliding plate 78 is long, and the length direction of the sliding plate 78 is consistent with the moving direction of the second conveyor belt 3. The sliding plate 78 is provided with a push groove 79 matched with a workpiece, the push groove 79 is arranged along the length direction of the sliding plate 78, and the push groove 79 is arranged on one side of the lower end face of the sliding plate 78 close to the second conveying belt 3. When the workpiece is conveyed to one side of east China, the pushing cylinder 76 drives the sliding plate 78 to move towards the workpiece, and the side wall and the upper top wall of the pushing groove 79 respectively abut against the side wall and the upper wall of the workpiece, so that the sliding plate 78 abuts against the side wall of the workpiece and corrects the workpiece.

Labeling part 4

The labeling part 4 is fixed above the workbench 1, and the labeling part 4 is suitable for labeling workpieces.

Detection unit 5

The detection parts 5 are rotatably arranged on two sides of the first conveying belt 2, and the detection parts 5 are suitable for compacting the labeled workpiece and performing oil printing on labeling positions on edges on two sides of the workpiece. Specifically, detection portion 5 sets up in the low reaches of subsides mark portion 4, pastes mark portion 4 and pastes the label to work piece both sides after, the work piece moves to detection portion 5 below under the drive of first conveyer belt 2, and detection portion 5 can carry out the compaction to the label of pasting on the work piece, simultaneously, impresses anti-counterfeiting code to the label upper surface.

The structure of the detection unit 5 will be described in detail below, and the detection unit 5 includes: fixed block 51, pressing wheel 52, compacting assembly 53 and inking assembly 54. The fixed blocks 51 are fixed on two side walls of the first conveyor belt 2 support, and the two fixed blocks 51 are arranged oppositely. The fixing block 51 is able to mount and support the stitching wheel 52, thereby achieving the effect of connecting the stitching wheel 52 to the bracket of the first support frame 6. The pressing wheel 52 is rotatably arranged on the inner side wall of the fixing block 51, the pressing wheel 52 is arranged above the first conveying belt 2, the two fixing blocks 51 are connected through a rotating shaft, the rotating shaft is horizontally arranged, the two pressing wheels 52 are sleeved on the outer wall of the rotating shaft in a mirror mode, meanwhile, the rotating shaft can drive the two pressing wheels 52 to axially rotate synchronously, the rotating shaft is fixed at the end portion of an output shaft of the driving motor, and the driving motor is suitable for driving the rotating shaft to axially rotate. The compacting assembly 53 is slidably arranged on the outer wall of the pressing wheel 52, and the lower end of the compacting assembly 53 can be abutted against the upper end face of the workpiece. Specifically, when the pressing wheel 52 axially rotates, the corresponding compacting component 53 can be driven to synchronously axially rotate around the axis of the pressing wheel 52, when the pressing wheel 52 rotates for one circle, the compacting component 53 rotates to abut against the upper surface of the workpiece, the workpiece extrudes the compacting component 53 to slide towards the outer wall direction of the pressing wheel 52, so that the compacting component 53 compacts the label on the side wall of the workpiece, and then the compacting component 53 can stamp the anti-counterfeit code on the compacted label. The oil seal assembly 54 is arranged above the fixed block 51, the lower end of the oil seal assembly 54 can abut against the compacting assembly 53, and when the pressing wheel 52 rotates for one circle, the compacting assembly 53 rotates to the position that the bottom wall abuts against the lower surface of the oil seal assembly 54, the oil seal assembly 54 can paint ink on the compacting assembly 53, so that after the compacting assembly 53 rotates to abut against a label, the anti-counterfeiting code can be printed on the upper surface of the label.

In order to achieve the above-mentioned effect of compacting the workpiece label and printing the anti-counterfeit code by the compacting assembly 53, the compacting assembly 53 comprises: an edge-pressing block 531, a compression spring 532, and a clapper 533. The longitudinal section of the edge pressing block 531 is in a right trapezoid shape, and two bottom edges of the edge pressing block 531 are perpendicular to the first conveying belt 2, so that the right-angle edge of the edge pressing block 531 is parallel to the first conveying belt 2. The outer wall of the pressing wheel 52 is provided with a sliding groove 520 matched with the edge pressing block 531, and the edge pressing block 531 is slidably arranged in the sliding groove 520. Particularly, the upper end of the edge pressing block 531 is provided with a T-shaped block, the T-shaped block is arranged in an inclined manner towards the axis of the pressing wheel 52 along the direction away from the pressing wheel 52, a T-shaped groove is correspondingly arranged on the inner wall of the pressing wheel 52, and the T-shaped block is matched with the T-shaped groove. In addition, the lower end of the edge pressing block 531 protrudes out of the outer wall of the pressing wheel 52, and arc surfaces are arranged on two sides of the bottom wall of the edge pressing block 531. Through the arrangement, when the pressing wheel 52 rotates until the edge pressing block 531 abuts against the workpiece, the workpiece extrudes the edge pressing block 531 along with the continuous rotation of the pressing wheel 52, so that the edge pressing block 531 slides outwards along the T-shaped groove through the T-shaped block. One side of the right-angle waist edge of the edge pressing block 531, which is close to the workpiece, is provided with a pressing groove 534, and the edge pressing block 531 can slide outwards to the side wall of the pressing groove 534 to abut against the side wall of the workpiece, so that the label is pressed on the side wall of the workpiece. A hole groove is formed in the edge pressing block 531, one end of the compression spring 532 is fixed to the bottom wall of the hole groove, and the other end of the compression spring 532 is fixed to the inner side wall of the sliding groove 520. When the workpiece extrudes the edge pressing block 531 to slide outwards, the edge pressing block 531 pulls the compression spring 532 to stretch, and after the edge pressing block 531 is separated from the workpiece, the compression spring 532 pulls the edge pressing block 531 to return to the inner side of the pressing wheel 52. One end of the clapper 533 is slidably arranged on the side wall of the edge pressing block 531, the other end of the clapper 533 extends to the conveyor belt, after the edge pressing block 531 is driven by the pressing wheel 52 to be separated from the workpiece, the pressing spring pulls the edge pressing block 531 to reset and slide towards the sliding groove 520, and the clapper 533 slides from outside to inside to clap the workpiece protruding out of the side wall of the conveyor belt.

To accomplish the effect of inking assembly 54 to add ink to the compacting groove 534, the inking assembly 54 includes: a rectangular box 541, an ink fountain 542 and a sponge block 543. The rectangular box 541 is hollow inside, and the rectangular box 541 is suitable for storing ink. The ink adding duct 542 is fixed above the rectangular box 541, the opening of the ink adding duct 542 is upward, and after ink is poured into the ink adding duct 542, the ink can flow downward into the rectangular box 541. The sponge piece 543 is fixed the inboard outer wall of rectangle box 541, just a through-hole that communicates with sponge piece 543 is seted up to rectangle box 541 lateral wall, and the printing ink in the rectangle box 541 can flow out through the through-hole to soak sponge piece 543, thereby add printing ink in the sponge piece 543. The pressing wheel 52 drives the pressing block 531 to rotate axially, and when the lower bottom surface of the pressing block 531 abuts against the lower bottom surface of the rectangular box 541, the bottom wall and the side wall of the pressing groove 534 simultaneously press the sponge block 543 to adhere ink. Then, when the compacting wheel 52 rotates until the compacting groove 534 abuts against the top wall and the side wall of the workpiece, the compacting groove 534 oil-prints the anti-counterfeiting code on the upper surface of the label stuck on the workpiece.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. A detection system for a photovoltaic module, comprising:

the labeling device comprises a workbench (1), a first conveying belt (2), a labeling part (4), a detecting part (5), a second conveying belt (3), a supporting frame (6) and a drying part (7), wherein the first conveying belt (2) is fixed on the workbench (1), and the first conveying belt (2) is suitable for conveying workpieces;

the labeling part (4) is fixed above the workbench (1), and the labeling part (4) is suitable for labeling workpieces;

the detection parts (5) are rotatably arranged on two sides of the first conveying belt (2), and the detection parts (5) are suitable for compacting the labeled workpieces and performing oil printing on labeling positions on edges of two sides of the workpieces;

the supporting frame (6) is fixed on one side of the workbench (1), one end of the second conveying belt (3) is hinged to the supporting frame (6), the other end of the second conveying belt (3) is close to the first conveying belt (2), and the second conveying belt (3) is arranged below the first conveying belt (2);

the drying part (7) is arranged on one side of the second conveying belt (3), and the drying part (7) is suitable for drying oil marks on the side wall of the workpiece; wherein

After the workpiece is moved onto the second conveying belt (3) from the first conveying belt (2), the second conveying belt drives the workpiece to move to the drying part (7), and the drying part (7) blows air to the side wall of the workpiece to dry the oil marks.

2. The inspection system for photovoltaic modules according to claim 1,

the drying section (7) comprises: the drying device comprises a drying fan (71), a fixing plate (72) and a drying blowing head (73), wherein the fixing plate (72) is fixed on the side wall of the bracket of the second conveying belt (3), the drying fan (71) is fixed on the side wall of the fixing plate (72), the drying blowing head (73) is fixed above the fixing plate (72), and the drying blowing head (73) faces the second conveying belt (3);

the drying blowing head (73) is hollow, and the drying blowing head (73) is communicated with a drying fan (71) through a pipeline; wherein

When the second conveying belt (3) drives the workpiece to move below the drying blowing head (73), the drying fan (71) blows air to the side wall of the workpiece through the drying blowing head (73) so as to dry the oil marks on the side wall of the workpiece.

3. The inspection system for photovoltaic modules according to claim 2,

a connecting plate (74) is vertically fixed on the fixing plate (72), and the drying blowing head (73) is fixed at the end part of the connecting plate (74); the connecting plate (74) is hollow, the pipeline is arranged inside the connecting plate (74), one end of the pipeline is communicated with an air outlet (75) of the drying fan (71), and the other end of the pipeline is communicated with an air inlet end of the drying blowing head (73).

4. The inspection system for photovoltaic modules according to claim 3,

the drying blowing head (73) is conical, an air outlet (75) of the drying blowing head (73) faces the second conveying belt (3), an electric heating wire is arranged in the drying blowing head (73), and the electric heating wire is arranged around the circumference of the air outlet (75) of the drying blowing head (73); wherein

When the electric heating wire is used for heating, hot air is blown to the side wall of the workpiece through an air outlet (75) of the drying blowing head (73).

5. The inspection system for photovoltaic modules according to claim 4,

the drying section (7) further comprises: the pushing device comprises a pushing cylinder (76), a positioning block (77) and a sliding plate (78), wherein the pushing cylinder (76) is fixed on one side of the fixing plate (72), and the pushing cylinder (76) is perpendicular to the second conveying belt (3);

the positioning block (77) is vertically fixed on the fixing plate (72), the positioning block (77) is fixed on one side, close to the pushing cylinder (76), of the fixing plate (72), and the sliding plate (78) is fixed at the end part of a piston rod of the pushing cylinder (76);

the sliding plate (78) is long, the length direction of the sliding plate (78) is consistent with the moving direction of the second conveying belt (3), and a piston rod of the pushing cylinder (76) penetrates through the positioning block (77); wherein

The pushing cylinder (76) drives the sliding plate (78) to horizontally slide towards the second conveying belt (3) so that the sliding plate (78) abuts against the side wall of the workpiece and corrects the workpiece.

6. The inspection system for photovoltaic modules according to claim 5,

the sliding plate (78) is provided with a pushing groove (79) matched with a workpiece, the pushing groove (79) is arranged along the length direction of the sliding plate (78), and the pushing groove (79) is arranged on one side, close to the second conveying belt (3), of the lower end face of the sliding plate (78); wherein

When the pushing cylinder (76) drives the sliding plate (78) to move towards the workpiece, the side wall and the upper top wall of the pushing groove (79) respectively abut against the side wall and the upper wall of the workpiece.

7. The inspection system for photovoltaic modules according to claim 6,

an angle cylinder (80) is fixed on the support frame (6), one end of the angle cylinder (80) is fixed on the support frame (6), the end part of a piston rod of the angle cylinder (80) is hinged below the second conveying belt (3), and the end part of the piston rod of the angle cylinder (80) is hinged below the second conveying belt (3)

The angle cylinder (80) can push the second conveying belt (3) to move upwards or downwards by taking a hinged point of the second conveying belt (3) and the supporting frame (6) as an axis when working.

8. The inspection system for photovoltaic modules according to claim 7,

the detection unit (5) includes: the device comprises fixing blocks (51), a pressing wheel (52), a compacting assembly (53) and a mimeograph assembly (54), wherein the fixing blocks (51) are fixed on two side walls of a support of the first conveying belt (2), the two fixing blocks (51) are oppositely arranged, the pressing wheel (52) is rotatably arranged on the inner side wall of the fixing blocks (51), and the pressing wheel (52) is arranged above the first conveying belt (2);

the compacting component (53) is slidably arranged on the outer wall of the pressing wheel (52), and the compacting component (53) is suitable for abutting against a workpiece and compacting and labeling each time the pressing wheel (52) rotates one circle;

the oil seal assembly (54) is arranged above the fixed block (51), and the lower end of the oil seal assembly (54) can abut against the compaction assembly (53); wherein

When the first conveying belt (2) drives the workpiece to move below the pressing wheel (52), the pressing wheel (52) axially rotates to compact the label on the upper surface of the workpiece;

when the pressing wheel (52) drives the compacting component (53) to axially rotate to abut against the workpiece, the workpiece extrudes the compacting component (53) to slide towards the outer wall direction of the pressing wheel (52), so that the label is compacted on the side wall of the workpiece by the compacting component (53), and an anti-counterfeiting code is printed on the label;

when the pressing wheel (52) drives the compacting component (53) to axially rotate to abut against the oil printing component (54), the oil printing component (54) can wipe ink on the bottom wall of the compacting component (53).

9. The inspection system for photovoltaic modules according to claim 8,

the compacting assembly (53) comprises: the device comprises an edge pressing block (531), a compression spring (532) and a beating plate (533), wherein the edge pressing block (531) is in a right trapezoid shape, and two bottom edges of the edge pressing block (531) are perpendicular to a first conveying belt (2);

one side of the right-angle waist edge of the edge pressing block (531), which is close to the workpiece, is provided with a pressing groove (534);

the outer wall of the pressing wheel (52) is provided with a sliding groove (520) matched with the edge pressing block (531); the edge pressing block (531) is arranged in the sliding groove (520) in a sliding mode;

one end of the beating plate (533) is slidably arranged on the side wall of the edge pressing block (531), and the other end of the beating plate (533) extends to the first conveying belt (2);

a hole groove is formed in the edge pressing block (531), one end of the compression spring (532) is fixed on the bottom wall of the hole groove, and the other end of the compression spring (532) is fixed on the inner side wall of the sliding groove (520); wherein

In the process that the pressing wheel (52) drives the edge pressing block (531) to axially rotate to abut against the workpiece, the workpiece extrudes the edge pressing block (531) to move towards the outer wall of the outer pressing wheel (52) along the sliding groove (520) until the side wall of the compacting groove (534) abuts against the side wall of the workpiece, so that the label is compacted on the side wall of the workpiece;

after the pressing wheel (52) drives the pressing edge block (531) to be separated from the workpiece, the pressing edge block (531) is pulled by the pressing spring to reset and slide towards the sliding groove (520), and the beating plate (533) slides from outside to inside to beat the workpiece protruding out of the side wall of the first conveying belt (2).

10. The inspection system for photovoltaic modules according to claim 9,

the stamp assembly (54) comprises: the ink fountain comprises a rectangular box (541), an ink adding duct (542) and a sponge block (543), wherein the rectangular box (541) is hollow, and ink is suitable for being stored in the rectangular box (541);

the ink adding duct (542) is fixed above the rectangular box (541), and the opening of the ink adding duct (542) is upward;

the sponge block (543) is fixed on the outer wall of the inner side of the rectangular box (541), and a through hole communicated with the sponge block (543) is formed in the side wall of the rectangular box (541); wherein

The pressing wheel (52) drives the pressing block (531) to axially rotate until the lower bottom surface of the pressing block (531) is abutted against the lower bottom surface of the rectangular box (541), and the bottom wall and the side wall of the pressing groove (534) simultaneously extrude the sponge block (543) so as to adhere ink.

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